Der Anaesthesist
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Healthy vascular endothelium is luminally coated by an endothelial glycocalyx, which interacts with the bloodstream and assumes a filter function on the vascular wall. Although this structure was discovered nearly 70 years ago, its physiological importance has been underestimated for a long time. Recent findings indicate that the glycocalyx is, in addition to the endothelial cells themselves, a main constituent part of the vascular barrier. ⋯ The endothelial glycocalyx, as an additional competent vascular permeability barrier has, therefore, not only a key role for perioperative fluid and protein shifts into the interstitial space, but it seems to be intimately involved in the pathophysiology of diabetes, arteriosclerosis, sepsis and ischemia/reperfusion, especially with respect to associated vascular dysfunctions. The fragile glycocalyx can be destroyed in the course of surgery, trauma, ischemia/reperfusion and sepsis and by inflammatory mediators such as TNF-alpha, causing leukocyte adhesion, platelet aggregation and edema formation. Recent studies have shown that protecting this structure not only maintains the vascular barrier, but constitutes an important component of a rational perioperative fluid therapy.
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Review
[Neurally adjusted ventilatory assist (NAVA). A new mode of assisted mechanical ventilation].
The aim of mechanical ventilation is to assure gas exchange while efficiently unloading the respiratory muscles and mechanical ventilation is an integral part of the care of patients with acute respiratory failure. Modern lung protective strategies of mechanical ventilation include low-tidal-volume ventilation and the continuation of spontaneous breathing which has been shown to be beneficial in reducing atelectasis and improving oxygenation. Poor patient-ventilator interaction is a major issue during conventional assisted ventilation. ⋯ First experimental studies showed an improved patient-ventilator synchrony and an efficient unloading of the respiratory muscles. Future clinical studies will have to show that NAVA is of clinical advantage when compared to conventional modes of assisted mechanical ventilation. This review characterizes NAVA according to current publications on this topic.
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The Laryngeal Mask Airway Supreme (LMA-S) is a new disposable airway device that combines features of the LMA ProSeal (PLMA, gastric access) and LMA Fastrach (curved shaft to ease insertion) and has been available since April 2007. ⋯ Insertion of the LMA-S was successful and possible in all patients in < or = 30 s with an optimal laryngeal fit, high OLPs and low airway morbidity. The LMA-S seems to be a device suitable for use in routine anesthesia and which can be safely used by medical personnel with limited clinical experience.
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Sculptures from the Stone Age hint at the possibility that morbidly obese humans have always existed. Today, obesity represents a global epidemic with far-reaching consequences affecting health systems worldwide. ⋯ In addition to insufficient logistics and inappropriate technical equipment, the large number of obesity-related diseases, combined with the distinct pathophysiological changes of the respiratory system, put the morbidly obese patient at a significantly increased risk of perioperative complications. If, however, elaborate logistics and adequate airway management--followed by lung protective mechanical ventilation--are combined with appropriately conducted anaesthesia and intensive care, the morbidly obese patients' intensive care survival rates and hospital survival rates can be similar to those of patients of normal weight.
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Despite inspiratory oxygen fraction measurement being regulated by law in the European norm EN 740, fatal errors in nitrous oxide delivery still occur more frequently than expected, especially after construction or repair of gas connection tubes. Therefore, if nitrous oxide is to be used further in a hospital, all technical measures and system procedures should be employed to avoid future catastrophes. Among these are measurement of the inspiratory oxygen fraction (F(I)O(2)) and an automatic limitation of nitrous oxide. ⋯ Additionally, more awareness of this problem in daily routine is necessary. Furthermore, a system of detecting and analysing errors in anaesthesia has to be improved in each hospital as well as in the anaesthesia community as a whole. Measures for a better "error culture" could include data exchange between different critical incident reporting systems, analysis of closed claims, and integration of medical experts in examination of recent catastrophes.